Add to ORKGMussel-inspired adhesive hydrogels represent innovative candidate medical sealants or glues. In the present work, we describe an enzyme-degradable mussel-inspired adhesive hydrogel formulation, achieved by incorporating minimal elastase substrate peptide Ala-Ala into the branched poly(ethylene glycol) (PEG) macromonomer structure. The system takes advantage of neutrophil elastase expression upregulation and secretion from neutrophils upon recruitment to wounded or inflamed tissue. By integrating adhesive degradation behaviors that respond to cellular cues, we expand the functional range of our mussel-inspired adhesive hydrogel platforms. Rapid (<1 min) and simultaneous gelation and adhesion of the proteolytically active, catechol-termina...
Marine and freshwater mussels are notorious foulers of natural and manmade surfaces, secreting speci...
A facile method was found to incorporate a mussel-inspired adhesive moiety into synthetic polymers, ...
Polymeric hydrogels are increasingly being considered as a scaffold for tissue engineering because t...
Mussel-inspired adhesive hydrogels represent innovative candidate medical sealants or glues. In the ...
Mussel-inspired adhesive hydrogels represent innovative candidate medical sealants or glues. In the ...
Hydrogel systems based on cross-linked polymeric materials which could provide both adhesion and coh...
Wounds are created in soft and hard tissue through surgery or disease. As the wound heals, the tissu...
Traumatic injury is a leading cause of death worldwide whose treatment process is riddled with medic...
Hydrogels with robust wet adhesion are desirable for applications in aqueous environments. Wet adhes...
It has been a great challenge to develop aldehyde-free tissue adhesives that can function rapidly an...
Adhesive hydrogels with self-healing and stretchability are expected to be used in a variety of fiel...
Hydrogels are a unique class of polymeric materials that possess an interconnected porous network ac...
Marine mussels secrete adhesive proteins that enable these organisms to bind tenaciously to surfaces...
The substance secreted by mussels, also known as nature’s glue, is a type of liquid protein that ha...
Marine and freshwater mussels are notorious foulers of natural and manmade surfaces, secreting speci...
A facile method was found to incorporate a mussel-inspired adhesive moiety into synthetic polymers, ...
Polymeric hydrogels are increasingly being considered as a scaffold for tissue engineering because t...
Mussel-inspired adhesive hydrogels represent innovative candidate medical sealants or glues. In the ...
Mussel-inspired adhesive hydrogels represent innovative candidate medical sealants or glues. In the ...
Hydrogel systems based on cross-linked polymeric materials which could provide both adhesion and coh...
Wounds are created in soft and hard tissue through surgery or disease. As the wound heals, the tissu...
Traumatic injury is a leading cause of death worldwide whose treatment process is riddled with medic...
Hydrogels with robust wet adhesion are desirable for applications in aqueous environments. Wet adhes...
It has been a great challenge to develop aldehyde-free tissue adhesives that can function rapidly an...
Adhesive hydrogels with self-healing and stretchability are expected to be used in a variety of fiel...
Hydrogels are a unique class of polymeric materials that possess an interconnected porous network ac...
Marine mussels secrete adhesive proteins that enable these organisms to bind tenaciously to surfaces...
The substance secreted by mussels, also known as nature’s glue, is a type of liquid protein that ha...
Marine and freshwater mussels are notorious foulers of natural and manmade surfaces, secreting speci...
A facile method was found to incorporate a mussel-inspired adhesive moiety into synthetic polymers, ...
Polymeric hydrogels are increasingly being considered as a scaffold for tissue engineering because t...
